新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2012年
3期
194-199
,共6页
邓洪贵%金双铃%詹亮%王艳莉%鹿宝华%乔文明%凌立成
鄧洪貴%金雙鈴%詹亮%王豔莉%鹿寶華%喬文明%凌立成
산홍귀%금쌍령%첨량%왕염리%록보화%교문명%릉립성
微孔炭%金属框架有机物%二氧化碳%吸附
微孔炭%金屬框架有機物%二氧化碳%吸附
미공탄%금속광가유궤물%이양화탄%흡부
Nanoporous carbon%Metal-organic coordination polymer%Carbon dioxide%Adsorption
以金属框架有机物为模板,酚醛树脂为碳质前躯体,合成系列微孔炭.合成的微孔炭比表面积可达2368m2/g;在300K常压条件下,该材料对CO2的饱和吸附量为2.9 mmol/g.通过调节碳质前躯体的配比和老化时间,可以控制微孔炭的孔结构;在炭化过程中,挥发逸出的Zn也对基体碳发挥协同活化功能,进而使微孔炭的微孔含量提高.微孔炭对CO2的饱和吸附量随其比表面积的增加而增大.
以金屬框架有機物為模闆,酚醛樹脂為碳質前軀體,閤成繫列微孔炭.閤成的微孔炭比錶麵積可達2368m2/g;在300K常壓條件下,該材料對CO2的飽和吸附量為2.9 mmol/g.通過調節碳質前軀體的配比和老化時間,可以控製微孔炭的孔結構;在炭化過程中,揮髮逸齣的Zn也對基體碳髮揮協同活化功能,進而使微孔炭的微孔含量提高.微孔炭對CO2的飽和吸附量隨其比錶麵積的增加而增大.
이금속광가유궤물위모판,분철수지위탄질전구체,합성계렬미공탄.합성적미공탄비표면적가체2368m2/g;재300K상압조건하,해재료대CO2적포화흡부량위2.9 mmol/g.통과조절탄질전구체적배비화노화시간,가이공제미공탄적공결구;재탄화과정중,휘발일출적Zn야대기체탄발휘협동활화공능,진이사미공탄적미공함량제고.미공탄대CO2적포화흡부량수기비표면적적증가이증대.
A series of porous carbons (PCs) was synthesized from nonporous metal-organic coordination polymers (MOCPs),using in-situ polymerized phenol resin as a carbon precursor.The optimized PC has a BET surface area of 2368 m2/g and an equilibrium CO2 adsorption capacity of 2.9 mmol/g at 300 K and atmospheric pressure.The porous structure of the PCs can be controlled by the formulations of the carbon precursors and gelation/aging time.Meanwhile,the evaporated Zn from the thermal decomposition of the MOCPs acts as an activation agent during carbonization,which eventually improves the microporosity of the PCs.The CO2 equilibrium adsorption capacity increases with increasing Brunauer-Emmett-Teller surface area of the PCs.
